/*
 * Copyright (C) 2012-2017 DataStax Inc.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package com.datastax.driver.core;

import com.datastax.driver.core.exceptions.InvalidTypeException;
import com.datastax.driver.core.utils.Bytes;
import com.google.common.io.ByteArrayDataOutput;
import com.google.common.io.ByteStreams;
import com.google.common.reflect.TypeToken;

import java.io.DataInput;
import java.io.IOException;
import java.lang.reflect.Type;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.net.InetAddress;
import java.net.UnknownHostException;
import java.nio.BufferUnderflowException;
import java.nio.ByteBuffer;
import java.nio.charset.Charset;
import java.text.ParseException;
import java.util.*;
import java.util.regex.Pattern;

import static com.datastax.driver.core.DataType.*;
import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;

/**
 * A Codec that can serialize and deserialize to and from a given
 * {@link #getCqlType() CQL type} and a given {@link #getJavaType() Java Type}.
 * <p/>
 * <h3>Serializing and deserializing</h3>
 * <p/>
 * Two methods handle the serialization and deserialization of Java types into
 * CQL types according to the native protocol specifications:
 * <ol>
 * <li>{@link #serialize(Object, ProtocolVersion)}: used to serialize from the codec's Java type to a
 * {@link ByteBuffer} instance corresponding to the codec's CQL type;</li>
 * <li>{@link #deserialize(ByteBuffer, ProtocolVersion)}: used to deserialize a {@link ByteBuffer} instance
 * corresponding to the codec's CQL type to the codec's Java type.</li>
 * </ol>
 * <p/>
 * <h3>Formatting and parsing</h3>
 * <p/>
 * Two methods handle the formatting and parsing of Java types into
 * CQL strings:
 * <ol>
 * <li>{@link #format(Object)}: formats the Java type handled by the codec as a CQL string;</li>
 * <li>{@link #parse(String)}; parses a CQL string into the Java type handled by the codec.</li>
 * </ol>
 * <p/>
 * <h3>Inspection</h3>
 * <p/>
 * Codecs also have the following inspection methods:
 * <p/>
 * <ol>
 * <li>{@link #accepts(DataType)}: returns true if the codec can deserialize the given CQL type;</li>
 * <li>{@link #accepts(TypeToken)}: returns true if the codec can serialize the given Java type;</li>
 * <li>{@link #accepts(Object)}; returns true if the codec can serialize the given object.</li>
 * </ol>
 * <p/>
 * <h3>Implementation notes</h3>
 * <p/>
 * <ol>
 * <li>TypeCodec implementations <em>must</em> be thread-safe.</li>
 * <li>TypeCodec implementations <em>must</em> perform fast and never block.</li>
 * <li>TypeCodec implementations <em>must</em> support all native protocol versions; it is not possible
 * to use different codecs for the same types but under different protocol versions.</li>
 * <li>TypeCodec implementations must comply with the native protocol specifications; failing
 * to do so will result in unexpected results and could cause the driver to crash.</li>
 * <li>TypeCodec implementations <em>should</em> be stateless and immutable.</li>
 * <li>TypeCodec implementations <em>should</em> interpret {@code null} values and empty ByteBuffers
 * (i.e. <code>{@link ByteBuffer#remaining()} == 0</code>) in a <em>reasonable</em> way;
 * usually, {@code NULL} CQL values should map to {@code null} references, but exceptions exist;
 * e.g. for varchar types, a {@code NULL} CQL value maps to a {@code null} reference,
 * whereas an empty buffer maps to an empty String. For collection types, it is also admitted that
 * {@code NULL} CQL values map to empty Java collections instead of {@code null} references.
 * In any case, the codec's behavior in respect to {@code null} values and empty ByteBuffers
 * should be clearly documented.</li>
 * <li>TypeCodec implementations that wish to handle Java primitive types <em>must</em> be instantiated with
 * the wrapper Java class instead, and implement the appropriate interface
 * (e.g. {@link com.datastax.driver.core.TypeCodec.PrimitiveBooleanCodec} for primitive {@code boolean} types;
 * there is one such interface for each Java primitive type).</li>
 * <li>When deserializing, TypeCodec implementations should not consume {@link ByteBuffer} instances
 * by performing relative read operations that modify their current position;
 * codecs should instead prefer absolute read methods, or, if necessary, they should
 * {@link ByteBuffer#duplicate() duplicate} their byte buffers prior to reading them.</li>
 * </ol>
 *
 * @param <T> The codec's Java type
 */
public abstract class TypeCodec<T> {

    /**
     * Return the default codec for the CQL type {@code boolean}.
     * The returned codec maps the CQL type {@code boolean} into the Java type {@link Boolean}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code boolean}.
     */
    public static PrimitiveBooleanCodec cboolean() {
        return BooleanCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code tinyint}.
     * The returned codec maps the CQL type {@code tinyint} into the Java type {@link Byte}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code tinyint}.
     */
    public static PrimitiveByteCodec tinyInt() {
        return TinyIntCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code smallint}.
     * The returned codec maps the CQL type {@code smallint} into the Java type {@link Short}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code smallint}.
     */
    public static PrimitiveShortCodec smallInt() {
        return SmallIntCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code int}.
     * The returned codec maps the CQL type {@code int} into the Java type {@link Integer}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code int}.
     */
    public static PrimitiveIntCodec cint() {
        return IntCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code bigint}.
     * The returned codec maps the CQL type {@code bigint} into the Java type {@link Long}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code bigint}.
     */
    public static PrimitiveLongCodec bigint() {
        return BigintCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code counter}.
     * The returned codec maps the CQL type {@code counter} into the Java type {@link Long}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code counter}.
     */
    public static PrimitiveLongCodec counter() {
        return CounterCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code float}.
     * The returned codec maps the CQL type {@code float} into the Java type {@link Float}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code float}.
     */
    public static PrimitiveFloatCodec cfloat() {
        return FloatCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code double}.
     * The returned codec maps the CQL type {@code double} into the Java type {@link Double}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code double}.
     */
    public static PrimitiveDoubleCodec cdouble() {
        return DoubleCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code varint}.
     * The returned codec maps the CQL type {@code varint} into the Java type {@link BigInteger}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code varint}.
     */
    public static TypeCodec<BigInteger> varint() {
        return VarintCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code decimal}.
     * The returned codec maps the CQL type {@code decimal} into the Java type {@link BigDecimal}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code decimal}.
     */
    public static TypeCodec<BigDecimal> decimal() {
        return DecimalCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code ascii}.
     * The returned codec maps the CQL type {@code ascii} into the Java type {@link String}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code ascii}.
     */
    public static TypeCodec<String> ascii() {
        return AsciiCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code varchar}.
     * The returned codec maps the CQL type {@code varchar} into the Java type {@link String}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code varchar}.
     */
    public static TypeCodec<String> varchar() {
        return VarcharCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code blob}.
     * The returned codec maps the CQL type {@code blob} into the Java type {@link ByteBuffer}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code blob}.
     */
    public static TypeCodec<ByteBuffer> blob() {
        return BlobCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code date}.
     * The returned codec maps the CQL type {@code date} into the Java type {@link LocalDate}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code date}.
     */
    public static TypeCodec<LocalDate> date() {
        return DateCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code time}.
     * The returned codec maps the CQL type {@code time} into the Java type {@link Long}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code time}.
     */
    public static PrimitiveLongCodec time() {
        return TimeCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code timestamp}.
     * The returned codec maps the CQL type {@code timestamp} into the Java type {@link Date}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code timestamp}.
     */
    public static TypeCodec<Date> timestamp() {
        return TimestampCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code uuid}.
     * The returned codec maps the CQL type {@code uuid} into the Java type {@link UUID}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code uuid}.
     */
    public static TypeCodec<UUID> uuid() {
        return UUIDCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code timeuuid}.
     * The returned codec maps the CQL type {@code timeuuid} into the Java type {@link UUID}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code timeuuid}.
     */
    public static TypeCodec<UUID> timeUUID() {
        return TimeUUIDCodec.instance;
    }

    /**
     * Return the default codec for the CQL type {@code inet}.
     * The returned codec maps the CQL type {@code inet} into the Java type {@link InetAddress}.
     * The returned instance is a singleton.
     *
     * @return the default codec for CQL type {@code inet}.
     */
    public static TypeCodec<InetAddress> inet() {
        return InetCodec.instance;
    }

    /**
     * Return a newly-created codec for the CQL type {@code list} whose element type
     * is determined by the given element codec.
     * The returned codec maps the CQL type {@code list} into the Java type {@link List}.
     * This method does not cache returned instances and returns a newly-allocated object
     * at each invocation.
     *
     * @param elementCodec the codec that will handle elements of this list.
     * @return A newly-created codec for CQL type {@code list}.
     */
    public static <T> TypeCodec<List<T>> list(TypeCodec<T> elementCodec) {
        return new ListCodec<T>(elementCodec);
    }

    /**
     * Return a newly-created codec for the CQL type {@code set} whose element type
     * is determined by the given element codec.
     * The returned codec maps the CQL type {@code set} into the Java type {@link Set}.
     * This method does not cache returned instances and returns a newly-allocated object
     * at each invocation.
     *
     * @param elementCodec the codec that will handle elements of this set.
     * @return A newly-created codec for CQL type {@code set}.
     */
    public static <T> TypeCodec<Set<T>> set(TypeCodec<T> elementCodec) {
        return new SetCodec<T>(elementCodec);
    }

    /**
     * Return a newly-created codec for the CQL type {@code map} whose key type
     * and value type are determined by the given codecs.
     * The returned codec maps the CQL type {@code map} into the Java type {@link Map}.
     * This method does not cache returned instances and returns a newly-allocated object
     * at each invocation.
     *
     * @param keyCodec   the codec that will handle keys of this map.
     * @param valueCodec the codec that will handle values of this map.
     * @return A newly-created codec for CQL type {@code map}.
     */
    public static <K, V> TypeCodec<Map<K, V>> map(TypeCodec<K> keyCodec, TypeCodec<V> valueCodec) {
        return new MapCodec<K, V>(keyCodec, valueCodec);
    }

    /**
     * Return a newly-created codec for the given user-defined CQL type.
     * The returned codec maps the user-defined type into the Java type {@link UDTValue}.
     * This method does not cache returned instances and returns a newly-allocated object
     * at each invocation.
     *
     * @param type the user-defined type this codec should handle.
     * @return A newly-created codec for the given user-defined CQL type.
     */
    public static TypeCodec<UDTValue> userType(UserType type) {
        return new UDTCodec(type);
    }

    /**
     * Return a newly-created codec for the given CQL tuple type.
     * The returned codec maps the tuple type into the Java type {@link TupleValue}.
     * This method does not cache returned instances and returns a newly-allocated object
     * at each invocation.
     *
     * @param type the tuple type this codec should handle.
     * @return A newly-created codec for the given CQL tuple type.
     */
    public static TypeCodec<TupleValue> tuple(TupleType type) {
        return new TupleCodec(type);
    }

    /**
     * Return a newly-created codec for the given CQL custom type.
     * <p/>
     * The returned codec maps the custom type into the Java type {@link ByteBuffer},
     * thus providing a (very lightweight) support for Cassandra
     * types that do not have a CQL equivalent.
     * <p/>
     * Note that the returned codec assumes that CQL literals for the given custom
     * type are expressed in binary form as well, e.g. {@code 0xcafebabe}. If this is
     * not the case, <em>the returned codec might be unable to {@link #parse(String) parse}
     * and {@link #format(Object) format} literals for this type</em>.
     * This is notoriously true for types inheriting from
     * {@code org.apache.cassandra.db.marshal.AbstractCompositeType}, whose CQL literals
     * are actually expressed as quoted strings.
     * <p/>
     * This method does not cache returned instances and returns a newly-allocated object
     * at each invocation.
     *
     * @param type the custom type this codec should handle.
     * @return A newly-created codec for the given CQL custom type.
     */
    public static TypeCodec<ByteBuffer> custom(DataType.CustomType type) {
        return new CustomCodec(type);
    }

    /**
     * Returns the default codec for the {@link DataType#duration() Duration type}.
     * <p/>
     * This codec maps duration types to the driver's built-in {@link Duration} class,
     * thus providing a more user-friendly mapping than the low-level mapping provided by regular
     * {@link #custom(DataType.CustomType) custom type codecs}.
     * <p/>
     * The returned instance is a singleton.
     *
     * @return the default codec for the Duration type.
     */
    public static TypeCodec<Duration> duration() {
        return DurationCodec.instance;
    }

    protected final TypeToken<T> javaType;

    protected final DataType cqlType;

    /**
     * This constructor can only be used for non parameterized types.
     * For parameterized ones, please use {@link #TypeCodec(DataType, TypeToken)} instead.
     *
     * @param javaClass The Java class this codec serializes from and deserializes to.
     */
    protected TypeCodec(DataType cqlType, Class<T> javaClass) {
        this(cqlType, TypeToken.of(javaClass));
    }

    protected TypeCodec(DataType cqlType, TypeToken<T> javaType) {
        checkNotNull(cqlType, "cqlType cannot be null");
        checkNotNull(javaType, "javaType cannot be null");
        checkArgument(!javaType.isPrimitive(), "Cannot create a codec for a primitive Java type (%s), please use the wrapper type instead", javaType);
        this.cqlType = cqlType;
        this.javaType = javaType;
    }

    /**
     * Return the Java type that this codec deserializes to and serializes from.
     *
     * @return The Java type this codec deserializes to and serializes from.
     */
    public TypeToken<T> getJavaType() {
        return javaType;
    }

    /**
     * Return the CQL type that this codec deserializes from and serializes to.
     *
     * @return The Java type this codec deserializes from and serializes to.
     */
    public DataType getCqlType() {
        return cqlType;
    }

    /**
     * Serialize the given value according to the CQL type
     * handled by this codec.
     * <p/>
     * Implementation notes:
     * <ol>
     * <li>Null values should be gracefully handled and no exception should be raised;
     * these should be considered as the equivalent of a NULL CQL value;</li>
     * <li>Codecs for CQL collection types should not permit null elements;</li>
     * <li>Codecs for CQL collection types should treat a {@code null} input as
     * the equivalent of an empty collection.</li>
     * </ol>
     *
     * @param value           An instance of T; may be {@code null}.
     * @param protocolVersion the protocol version to use when serializing
     *                        {@code bytes}. In most cases, the proper value to provide for this argument
     *                        is the value returned by {@link ProtocolOptions#getProtocolVersion} (which
     *                        is the protocol version in use by the driver).
     * @return A {@link ByteBuffer} instance containing the serialized form of T
     * @throws InvalidTypeException if the given value does not have the expected type
     */
    public abstract ByteBuffer serialize(T value, ProtocolVersion protocolVersion) throws InvalidTypeException;

    /**
     * Deserialize the given {@link ByteBuffer} instance according to the CQL type
     * handled by this codec.
     * <p/>
     * Implementation notes:
     * <ol>
     * <li>Null or empty buffers should be gracefully handled and no exception should be raised;
     * these should be considered as the equivalent of a NULL CQL value and, in most cases, should
     * map to {@code null} or a default value for the corresponding Java type, if applicable;</li>
     * <li>Codecs for CQL collection types should clearly document whether they return immutable collections or not
     * (note that the driver's default collection codecs return <em>mutable</em> collections);</li>
     * <li>Codecs for CQL collection types should avoid returning {@code null};
     * they should return empty collections instead (the driver's default collection codecs all comply with this rule).</li>
     * <li>The provided {@link ByteBuffer} should never be consumed by read operations that
     * modify its current position; if necessary,
     * {@link ByteBuffer#duplicate()} duplicate} it before consuming.</li>
     * </ol>
     *
     * @param bytes           A {@link ByteBuffer} instance containing the serialized form of T;
     *                        may be {@code null} or empty.
     * @param protocolVersion the protocol version to use when serializing
     *                        {@code bytes}. In most cases, the proper value to provide for this argument
     *                        is the value returned by {@link ProtocolOptions#getProtocolVersion} (which
     *                        is the protocol version in use by the driver).
     * @return An instance of T
     * @throws InvalidTypeException if the given {@link ByteBuffer} instance cannot be deserialized
     */
    public abstract T deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) throws InvalidTypeException;

    /**
     * Parse the given CQL literal into an instance of the Java type
     * handled by this codec.
     * <p/>
     * Implementors should take care of unquoting and unescaping the given CQL string
     * where applicable.
     * Null values and empty Strings should be accepted, as well as the string {@code "NULL"};
     * in most cases, implementations should interpret these inputs has equivalent to a {@code null}
     * reference.
     * <p/>
     * Implementing this method is not strictly mandatory: internally, the driver only uses it to
     * parse the INITCOND when building the metadata of an aggregate function (and in most cases it
     * will use a built-in codec, unless the INITCOND has a custom type).
     *
     * @param value The CQL string to parse, may be {@code null} or empty.
     * @return An instance of T; may be {@code null} on a {@code null input}.
     * @throws InvalidTypeException if the given value cannot be parsed into the expected type
     */
    public abstract T parse(String value) throws InvalidTypeException;

    /**
     * Format the given value as a valid CQL literal according
     * to the CQL type handled by this codec.
     * <p/>
     * Implementors should take care of quoting and escaping the resulting CQL literal
     * where applicable.
     * Null values should be accepted; in most cases, implementations should
     * return the CQL keyword {@code "NULL"} for {@code null} inputs.
     * <p/>
     * Implementing this method is not strictly mandatory. It is used:
     * <ol>
     * <li>in the query builder, when values are inlined in the query string (see
     * {@link com.datastax.driver.core.querybuilder.BuiltStatement} for a detailed
     * explanation of when this happens);</li>
     * <li>in the {@link QueryLogger}, if parameter logging is enabled;</li>
     * <li>to format the INITCOND in {@link AggregateMetadata#asCQLQuery(boolean)};</li>
     * <li>in the {@code toString()} implementation of some objects ({@link UDTValue},
     * {@link TupleValue}, and the internal representation of a {@code ROWS} response),
     * which may appear in driver logs.</li>
     * </ol>
     * If you choose not to implement this method, you should not throw an exception but
     * instead return a constant string (for example "XxxCodec.format not implemented").
     *
     * @param value An instance of T; may be {@code null}.
     * @return CQL string
     * @throws InvalidTypeException if the given value does not have the expected type
     */
    public abstract String format(T value) throws InvalidTypeException;

    /**
     * Return {@code true} if this codec is capable of serializing
     * the given {@code javaType}.
     * <p/>
     * The implementation is <em>invariant</em> with respect to the passed
     * argument (through the usage of {@link TypeToken#equals(Object)}
     * and <em>it's strongly recommended not to modify this behavior</em>.
     * This means that a codec will only ever return {@code true} for the
     * <em>exact</em> Java type that it has been created for.
     * <p/>
     * If the argument represents a Java primitive type, its wrapper type
     * is considered instead.
     *
     * @param javaType The Java type this codec should serialize from and deserialize to; cannot be {@code null}.
     * @return {@code true} if the codec is capable of serializing
     * the given {@code javaType}, and {@code false} otherwise.
     * @throws NullPointerException if {@code javaType} is {@code null}.
     */
    public boolean accepts(TypeToken<?> javaType) {
        checkNotNull(javaType, "Parameter javaType cannot be null");
        return this.javaType.equals(javaType.wrap());
    }

    /**
     * Return {@code true} if this codec is capable of serializing
     * the given {@code javaType}.
     * <p/>
     * This implementation simply calls {@link #accepts(TypeToken)}.
     *
     * @param javaType The Java type this codec should serialize from and deserialize to; cannot be {@code null}.
     * @return {@code true} if the codec is capable of serializing
     * the given {@code javaType}, and {@code false} otherwise.
     * @throws NullPointerException if {@code javaType} is {@code null}.
     */
    public boolean accepts(Class<?> javaType) {
        checkNotNull(javaType, "Parameter javaType cannot be null");
        return accepts(TypeToken.of(javaType));
    }

    /**
     * Return {@code true} if this codec is capable of deserializing
     * the given {@code cqlType}.
     *
     * @param cqlType The CQL type this codec should deserialize from and serialize to; cannot be {@code null}.
     * @return {@code true} if the codec is capable of deserializing
     * the given {@code cqlType}, and {@code false} otherwise.
     * @throws NullPointerException if {@code cqlType} is {@code null}.
     */
    public boolean accepts(DataType cqlType) {
        checkNotNull(cqlType, "Parameter cqlType cannot be null");
        return this.cqlType.equals(cqlType);
    }

    /**
     * Return {@code true} if this codec is capable of serializing
     * the given object. Note that the object's Java type is inferred
     * from the object' runtime (raw) type, contrary
     * to {@link #accepts(TypeToken)} which is capable of
     * handling generic types.
     * <p/>
     * This method is intended mostly to be used by the QueryBuilder
     * when no type information is available when the codec is used.
     * <p/>
     * Implementation notes:
     * <ol>
     * <li>The default implementation is <em>covariant</em> with respect to the passed
     * argument (through the usage of {@link TypeToken#isAssignableFrom(TypeToken)} or {@link TypeToken#isSupertypeOf(Type)})
     * and <em>it's strongly recommended not to modify this behavior</em>.
     * This means that, by default, a codec will accept
     * <em>any subtype</em> of the Java type that it has been created for.</li>
     * <li>The base implementation provided here can only handle non-parameterized types;
     * codecs handling parameterized types, such as collection types, must override
     * this method and perform some sort of "manual"
     * inspection of the actual type parameters.</li>
     * <li>Similarly, codecs that only accept a partial subset of all possible values
     * must override this method and manually inspect the object to check if it
     * complies or not with the codec's limitations.</li>
     * </ol>
     *
     * @param value The Java type this codec should serialize from and deserialize to; cannot be {@code null}.
     * @return {@code true} if the codec is capable of serializing
     * the given {@code javaType}, and {@code false} otherwise.
     * @throws NullPointerException if {@code value} is {@code null}.
     */
    public boolean accepts(Object value) {
        checkNotNull(value, "Parameter value cannot be null");
        return GuavaCompatibility.INSTANCE.isSupertypeOf(this.javaType, TypeToken.of(value.getClass()));
    }

    @Override
    public String toString() {
        return String.format("%s [%s <-> %s]", this.getClass().getSimpleName(), cqlType, javaType);
    }

    /**
     * A codec that is capable of handling primitive booleans,
     * thus avoiding the overhead of boxing and unboxing such primitives.
     */
    public static abstract class PrimitiveBooleanCodec extends TypeCodec<Boolean> {

        protected PrimitiveBooleanCodec(DataType cqlType) {
            super(cqlType, Boolean.class);
        }

        public abstract ByteBuffer serializeNoBoxing(boolean v, ProtocolVersion protocolVersion);

        public abstract boolean deserializeNoBoxing(ByteBuffer v, ProtocolVersion protocolVersion);

        @Override
        public ByteBuffer serialize(Boolean value, ProtocolVersion protocolVersion) {
            return value == null ? null : serializeNoBoxing(value, protocolVersion);
        }

        @Override
        public Boolean deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            return bytes == null || bytes.remaining() == 0 ? null : deserializeNoBoxing(bytes, protocolVersion);
        }
    }

    /**
     * A codec that is capable of handling primitive bytes,
     * thus avoiding the overhead of boxing and unboxing such primitives.
     */
    public static abstract class PrimitiveByteCodec extends TypeCodec<Byte> {

        protected PrimitiveByteCodec(DataType cqlType) {
            super(cqlType, Byte.class);
        }

        public abstract ByteBuffer serializeNoBoxing(byte v, ProtocolVersion protocolVersion);

        public abstract byte deserializeNoBoxing(ByteBuffer v, ProtocolVersion protocolVersion);

        @Override
        public ByteBuffer serialize(Byte value, ProtocolVersion protocolVersion) {
            return value == null ? null : serializeNoBoxing(value, protocolVersion);
        }

        @Override
        public Byte deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            return bytes == null || bytes.remaining() == 0 ? null : deserializeNoBoxing(bytes, protocolVersion);
        }
    }

    /**
     * A codec that is capable of handling primitive shorts,
     * thus avoiding the overhead of boxing and unboxing such primitives.
     */
    public static abstract class PrimitiveShortCodec extends TypeCodec<Short> {

        protected PrimitiveShortCodec(DataType cqlType) {
            super(cqlType, Short.class);
        }

        public abstract ByteBuffer serializeNoBoxing(short v, ProtocolVersion protocolVersion);

        public abstract short deserializeNoBoxing(ByteBuffer v, ProtocolVersion protocolVersion);

        @Override
        public ByteBuffer serialize(Short value, ProtocolVersion protocolVersion) {
            return value == null ? null : serializeNoBoxing(value, protocolVersion);
        }

        @Override
        public Short deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            return bytes == null || bytes.remaining() == 0 ? null : deserializeNoBoxing(bytes, protocolVersion);
        }
    }

    /**
     * A codec that is capable of handling primitive ints,
     * thus avoiding the overhead of boxing and unboxing such primitives.
     */
    public static abstract class PrimitiveIntCodec extends TypeCodec<Integer> {

        protected PrimitiveIntCodec(DataType cqlType) {
            super(cqlType, Integer.class);
        }

        public abstract ByteBuffer serializeNoBoxing(int v, ProtocolVersion protocolVersion);

        public abstract int deserializeNoBoxing(ByteBuffer v, ProtocolVersion protocolVersion);

        @Override
        public ByteBuffer serialize(Integer value, ProtocolVersion protocolVersion) {
            return value == null ? null : serializeNoBoxing(value, protocolVersion);
        }

        @Override
        public Integer deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            return bytes == null || bytes.remaining() == 0 ? null : deserializeNoBoxing(bytes, protocolVersion);
        }
    }

    /**
     * A codec that is capable of handling primitive longs,
     * thus avoiding the overhead of boxing and unboxing such primitives.
     */
    public static abstract class PrimitiveLongCodec extends TypeCodec<Long> {

        protected PrimitiveLongCodec(DataType cqlType) {
            super(cqlType, Long.class);
        }

        public abstract ByteBuffer serializeNoBoxing(long v, ProtocolVersion protocolVersion);

        public abstract long deserializeNoBoxing(ByteBuffer v, ProtocolVersion protocolVersion);

        @Override
        public ByteBuffer serialize(Long value, ProtocolVersion protocolVersion) {
            return value == null ? null : serializeNoBoxing(value, protocolVersion);
        }

        @Override
        public Long deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            return bytes == null || bytes.remaining() == 0 ? null : deserializeNoBoxing(bytes, protocolVersion);
        }
    }

    /**
     * A codec that is capable of handling primitive floats,
     * thus avoiding the overhead of boxing and unboxing such primitives.
     */
    public static abstract class PrimitiveFloatCodec extends TypeCodec<Float> {

        protected PrimitiveFloatCodec(DataType cqlType) {
            super(cqlType, Float.class);
        }

        public abstract ByteBuffer serializeNoBoxing(float v, ProtocolVersion protocolVersion);

        public abstract float deserializeNoBoxing(ByteBuffer v, ProtocolVersion protocolVersion);

        @Override
        public ByteBuffer serialize(Float value, ProtocolVersion protocolVersion) {
            return value == null ? null : serializeNoBoxing(value, protocolVersion);
        }

        @Override
        public Float deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            return bytes == null || bytes.remaining() == 0 ? null : deserializeNoBoxing(bytes, protocolVersion);
        }
    }

    /**
     * A codec that is capable of handling primitive doubles,
     * thus avoiding the overhead of boxing and unboxing such primitives.
     */
    public static abstract class PrimitiveDoubleCodec extends TypeCodec<Double> {

        protected PrimitiveDoubleCodec(DataType cqlType) {
            super(cqlType, Double.class);
        }

        public abstract ByteBuffer serializeNoBoxing(double v, ProtocolVersion protocolVersion);

        public abstract double deserializeNoBoxing(ByteBuffer v, ProtocolVersion protocolVersion);

        @Override
        public ByteBuffer serialize(Double value, ProtocolVersion protocolVersion) {
            return value == null ? null : serializeNoBoxing(value, protocolVersion);
        }

        @Override
        public Double deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            return bytes == null || bytes.remaining() == 0 ? null : deserializeNoBoxing(bytes, protocolVersion);
        }
    }

    /**
     * Base class for codecs handling CQL string types such as {@link DataType#varchar()},
     * {@link DataType#text()} or {@link DataType#ascii()}.
     */
    private static abstract class StringCodec extends TypeCodec<String> {

        private final Charset charset;

        private StringCodec(DataType cqlType, Charset charset) {
            super(cqlType, String.class);
            this.charset = charset;
        }

        @Override
        public String parse(String value) {
            if (value == null || value.isEmpty() || value.equalsIgnoreCase("NULL"))
                return null;
            if (!ParseUtils.isQuoted(value))
                throw new InvalidTypeException("text or varchar values must be enclosed by single quotes");

            return ParseUtils.unquote(value);
        }

        @Override
        public String format(String value) {
            if (value == null)
                return "NULL";
            return ParseUtils.quote(value);
        }

        @Override
        public ByteBuffer serialize(String value, ProtocolVersion protocolVersion) {
            return value == null ? null : ByteBuffer.wrap(value.getBytes(charset));
        }

        /**
         * {@inheritDoc}
         * <p/>
         * Implementation note: this method treats {@code null}s and empty buffers differently:
         * the formers are mapped to {@code null}s while the latters are mapped to empty strings.
         */
        @Override
        public String deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null)
                return null;
            if (bytes.remaining() == 0)
                return "";
            return new String(Bytes.getArray(bytes), charset);
        }
    }

    /**
     * This codec maps a CQL {@link DataType#varchar()} to a Java {@link String}.
     * Note that this codec also handles {@link DataType#text()}, which is merely
     * an alias for {@link DataType#varchar()}.
     */
    private static class VarcharCodec extends StringCodec {

        private static final VarcharCodec instance = new VarcharCodec();

        private VarcharCodec() {
            super(DataType.varchar(), Charset.forName("UTF-8"));
        }

    }

    /**
     * This codec maps a CQL {@link DataType#ascii()} to a Java {@link String}.
     */
    private static class AsciiCodec extends StringCodec {

        private static final AsciiCodec instance = new AsciiCodec();

        private static final Pattern ASCII_PATTERN = Pattern.compile("^\\p{ASCII}*$");

        private AsciiCodec() {
            super(DataType.ascii(), Charset.forName("US-ASCII"));
        }

        @Override
        public ByteBuffer serialize(String value, ProtocolVersion protocolVersion) {
            if (value != null && !ASCII_PATTERN.matcher(value).matches()) {
                throw new InvalidTypeException(String.format("%s is not a valid ASCII String", value));
            }
            return super.serialize(value, protocolVersion);
        }

        @Override
        public String format(String value) {
            if (value != null && !ASCII_PATTERN.matcher(value).matches()) {
                throw new InvalidTypeException(String.format("%s is not a valid ASCII String", value));
            }
            return super.format(value);
        }
    }

    /**
     * Base class for codecs handling CQL 8-byte integer types such as {@link DataType#bigint()},
     * {@link DataType#counter()} or {@link DataType#time()}.
     */
    private abstract static class LongCodec extends PrimitiveLongCodec {

        private LongCodec(DataType cqlType) {
            super(cqlType);
        }

        @Override
        public Long parse(String value) {
            try {
                return value == null || value.isEmpty() || value.equalsIgnoreCase("NULL") ? null : Long.parseLong(value);
            } catch (NumberFormatException e) {
                throw new InvalidTypeException(String.format("Cannot parse 64-bits long value from \"%s\"", value));
            }
        }

        @Override
        public String format(Long value) {
            if (value == null)
                return "NULL";
            return Long.toString(value);
        }

        @Override
        public ByteBuffer serializeNoBoxing(long value, ProtocolVersion protocolVersion) {
            ByteBuffer bb = ByteBuffer.allocate(8);
            bb.putLong(0, value);
            return bb;
        }

        @Override
        public long deserializeNoBoxing(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null || bytes.remaining() == 0)
                return 0;
            if (bytes.remaining() != 8)
                throw new InvalidTypeException("Invalid 64-bits long value, expecting 8 bytes but got " + bytes.remaining());

            return bytes.getLong(bytes.position());
        }
    }

    /**
     * This codec maps a CQL {@link DataType#bigint()} to a Java {@link Long}.
     */
    private static class BigintCodec extends LongCodec {

        private static final BigintCodec instance = new BigintCodec();

        private BigintCodec() {
            super(DataType.bigint());
        }

    }

    /**
     * This codec maps a CQL {@link DataType#counter()} to a Java {@link Long}.
     */
    private static class CounterCodec extends LongCodec {

        private static final CounterCodec instance = new CounterCodec();

        private CounterCodec() {
            super(DataType.counter());
        }

    }

    /**
     * This codec maps a CQL {@link DataType#blob()} to a Java {@link ByteBuffer}.
     */
    private static class BlobCodec extends TypeCodec<ByteBuffer> {

        private static final BlobCodec instance = new BlobCodec();

        private BlobCodec() {
            super(DataType.blob(), ByteBuffer.class);
        }

        @Override
        public ByteBuffer parse(String value) {
            return value == null || value.isEmpty() || value.equalsIgnoreCase("NULL") ? null : Bytes.fromHexString(value);
        }

        @Override
        public String format(ByteBuffer value) {
            if (value == null)
                return "NULL";
            return Bytes.toHexString(value);
        }

        @Override
        public ByteBuffer serialize(ByteBuffer value, ProtocolVersion protocolVersion) {
            return value == null ? null : value.duplicate();
        }

        @Override
        public ByteBuffer deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            return bytes == null ? null : bytes.duplicate();
        }
    }

    /**
     * This codec maps a CQL {@link DataType#custom(String) custom} type to a Java {@link ByteBuffer}.
     * Note that no instance of this codec is part of the default set of codecs used by the Java driver;
     * instances of this codec must be manually registered.
     */
    private static class CustomCodec extends TypeCodec<ByteBuffer> {

        private CustomCodec(DataType custom) {
            super(custom, ByteBuffer.class);
            assert custom.getName() == Name.CUSTOM;
        }

        @Override
        public ByteBuffer parse(String value) {
            return value == null || value.isEmpty() || value.equalsIgnoreCase("NULL") ? null : Bytes.fromHexString(value);
        }

        @Override
        public String format(ByteBuffer value) {
            if (value == null)
                return "NULL";
            return Bytes.toHexString(value);
        }

        @Override
        public ByteBuffer serialize(ByteBuffer value, ProtocolVersion protocolVersion) {
            return value == null ? null : value.duplicate();
        }

        @Override
        public ByteBuffer deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            return bytes == null ? null : bytes.duplicate();
        }
    }

    /**
     * This codec maps a CQL {@link DataType#cboolean()} to a Java {@link Boolean}.
     */
    private static class BooleanCodec extends PrimitiveBooleanCodec {

        private static final ByteBuffer TRUE = ByteBuffer.wrap(new byte[]{1});
        private static final ByteBuffer FALSE = ByteBuffer.wrap(new byte[]{0});

        private static final BooleanCodec instance = new BooleanCodec();

        private BooleanCodec() {
            super(DataType.cboolean());
        }

        @Override
        public Boolean parse(String value) {
            if (value == null || value.isEmpty() || value.equalsIgnoreCase("NULL"))
                return null;
            if (value.equalsIgnoreCase(Boolean.FALSE.toString()))
                return false;
            if (value.equalsIgnoreCase(Boolean.TRUE.toString()))
                return true;

            throw new InvalidTypeException(String.format("Cannot parse boolean value from \"%s\"", value));
        }

        @Override
        public String format(Boolean value) {
            if (value == null)
                return "NULL";
            return value ? "true" : "false";
        }

        @Override
        public ByteBuffer serializeNoBoxing(boolean value, ProtocolVersion protocolVersion) {
            return value ? TRUE.duplicate() : FALSE.duplicate();
        }

        @Override
        public boolean deserializeNoBoxing(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null || bytes.remaining() == 0)
                return false;
            if (bytes.remaining() != 1)
                throw new InvalidTypeException("Invalid boolean value, expecting 1 byte but got " + bytes.remaining());

            return bytes.get(bytes.position()) != 0;
        }
    }

    /**
     * This codec maps a CQL {@link DataType#decimal()} to a Java {@link BigDecimal}.
     */
    private static class DecimalCodec extends TypeCodec<BigDecimal> {

        private static final DecimalCodec instance = new DecimalCodec();

        private DecimalCodec() {
            super(DataType.decimal(), BigDecimal.class);
        }

        @Override
        public BigDecimal parse(String value) {
            try {
                return value == null || value.isEmpty() || value.equalsIgnoreCase("NULL") ? null : new BigDecimal(value);
            } catch (NumberFormatException e) {
                throw new InvalidTypeException(String.format("Cannot parse decimal value from \"%s\"", value));
            }
        }

        @Override
        public String format(BigDecimal value) {
            if (value == null)
                return "NULL";
            return value.toString();
        }

        @Override
        public ByteBuffer serialize(BigDecimal value, ProtocolVersion protocolVersion) {
            if (value == null)
                return null;
            BigInteger bi = value.unscaledValue();
            int scale = value.scale();
            byte[] bibytes = bi.toByteArray();

            ByteBuffer bytes = ByteBuffer.allocate(4 + bibytes.length);
            bytes.putInt(scale);
            bytes.put(bibytes);
            bytes.rewind();
            return bytes;
        }

        @Override
        public BigDecimal deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null || bytes.remaining() == 0)
                return null;
            if (bytes.remaining() < 4)
                throw new InvalidTypeException("Invalid decimal value, expecting at least 4 bytes but got " + bytes.remaining());

            bytes = bytes.duplicate();
            int scale = bytes.getInt();
            byte[] bibytes = new byte[bytes.remaining()];
            bytes.get(bibytes);

            BigInteger bi = new BigInteger(bibytes);
            return new BigDecimal(bi, scale);
        }
    }

    /**
     * This codec maps a CQL {@link DataType#cdouble()} to a Java {@link Double}.
     */
    private static class DoubleCodec extends PrimitiveDoubleCodec {

        private static final DoubleCodec instance = new DoubleCodec();

        private DoubleCodec() {
            super(DataType.cdouble());
        }

        @Override
        public Double parse(String value) {
            try {
                return value == null || value.isEmpty() || value.equalsIgnoreCase("NULL") ? null : Double.parseDouble(value);
            } catch (NumberFormatException e) {
                throw new InvalidTypeException(String.format("Cannot parse 64-bits double value from \"%s\"", value));
            }
        }

        @Override
        public String format(Double value) {
            if (value == null)
                return "NULL";
            return Double.toString(value);
        }

        @Override
        public ByteBuffer serializeNoBoxing(double value, ProtocolVersion protocolVersion) {
            ByteBuffer bb = ByteBuffer.allocate(8);
            bb.putDouble(0, value);
            return bb;
        }

        @Override
        public double deserializeNoBoxing(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null || bytes.remaining() == 0)
                return 0;
            if (bytes.remaining() != 8)
                throw new InvalidTypeException("Invalid 64-bits double value, expecting 8 bytes but got " + bytes.remaining());

            return bytes.getDouble(bytes.position());
        }
    }

    /**
     * This codec maps a CQL {@link DataType#cfloat()} to a Java {@link Float}.
     */
    private static class FloatCodec extends PrimitiveFloatCodec {

        private static final FloatCodec instance = new FloatCodec();

        private FloatCodec() {
            super(DataType.cfloat());
        }

        @Override
        public Float parse(String value) {
            try {
                return value == null || value.isEmpty() || value.equalsIgnoreCase("NULL") ? null : Float.parseFloat(value);
            } catch (NumberFormatException e) {
                throw new InvalidTypeException(String.format("Cannot parse 32-bits float value from \"%s\"", value));
            }
        }

        @Override
        public String format(Float value) {
            if (value == null)
                return "NULL";
            return Float.toString(value);
        }

        @Override
        public ByteBuffer serializeNoBoxing(float value, ProtocolVersion protocolVersion) {
            ByteBuffer bb = ByteBuffer.allocate(4);
            bb.putFloat(0, value);
            return bb;
        }

        @Override
        public float deserializeNoBoxing(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null || bytes.remaining() == 0)
                return 0;
            if (bytes.remaining() != 4)
                throw new InvalidTypeException("Invalid 32-bits float value, expecting 4 bytes but got " + bytes.remaining());

            return bytes.getFloat(bytes.position());
        }
    }

    /**
     * This codec maps a CQL {@link DataType#inet()} to a Java {@link InetAddress}.
     */
    private static class InetCodec extends TypeCodec<InetAddress> {

        private static final InetCodec instance = new InetCodec();

        private InetCodec() {
            super(DataType.inet(), InetAddress.class);
        }

        @Override
        public InetAddress parse(String value) {
            if (value == null || value.isEmpty() || value.equalsIgnoreCase("NULL"))
                return null;

            value = value.trim();
            if (!ParseUtils.isQuoted(value))
                throw new InvalidTypeException(String.format("inet values must be enclosed in single quotes (\"%s\")", value));
            try {
                return InetAddress.getByName(value.substring(1, value.length() - 1));
            } catch (Exception e) {
                throw new InvalidTypeException(String.format("Cannot parse inet value from \"%s\"", value));
            }
        }

        @Override
        public String format(InetAddress value) {
            if (value == null)
                return "NULL";
            return "'" + value.getHostAddress() + "'";
        }

        @Override
        public ByteBuffer serialize(InetAddress value, ProtocolVersion protocolVersion) {
            return value == null ? null : ByteBuffer.wrap(value.getAddress());
        }

        @Override
        public InetAddress deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null || bytes.remaining() == 0)
                return null;
            try {
                return InetAddress.getByAddress(Bytes.getArray(bytes));
            } catch (UnknownHostException e) {
                throw new InvalidTypeException("Invalid bytes for inet value, got " + bytes.remaining() + " bytes");
            }
        }
    }

    /**
     * This codec maps a CQL {@link DataType#tinyint()} to a Java {@link Byte}.
     */
    private static class TinyIntCodec extends PrimitiveByteCodec {

        private static final TinyIntCodec instance = new TinyIntCodec();

        private TinyIntCodec() {
            super(tinyint());
        }

        @Override
        public Byte parse(String value) {
            try {
                return value == null || value.isEmpty() || value.equalsIgnoreCase("NULL") ? null : Byte.parseByte(value);
            } catch (NumberFormatException e) {
                throw new InvalidTypeException(String.format("Cannot parse 8-bits int value from \"%s\"", value));
            }
        }

        @Override
        public String format(Byte value) {
            if (value == null)
                return "NULL";
            return Byte.toString(value);
        }

        @Override
        public ByteBuffer serializeNoBoxing(byte value, ProtocolVersion protocolVersion) {
            ByteBuffer bb = ByteBuffer.allocate(1);
            bb.put(0, value);
            return bb;
        }

        @Override
        public byte deserializeNoBoxing(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null || bytes.remaining() == 0)
                return 0;
            if (bytes.remaining() != 1)
                throw new InvalidTypeException("Invalid 8-bits integer value, expecting 1 byte but got " + bytes.remaining());

            return bytes.get(bytes.position());
        }
    }

    /**
     * This codec maps a CQL {@link DataType#smallint()} to a Java {@link Short}.
     */
    private static class SmallIntCodec extends PrimitiveShortCodec {

        private static final SmallIntCodec instance = new SmallIntCodec();

        private SmallIntCodec() {
            super(smallint());
        }

        @Override
        public Short parse(String value) {
            try {
                return value == null || value.isEmpty() || value.equalsIgnoreCase("NULL") ? null : Short.parseShort(value);
            } catch (NumberFormatException e) {
                throw new InvalidTypeException(String.format("Cannot parse 16-bits int value from \"%s\"", value));
            }
        }

        @Override
        public String format(Short value) {
            if (value == null)
                return "NULL";
            return Short.toString(value);
        }

        @Override
        public ByteBuffer serializeNoBoxing(short value, ProtocolVersion protocolVersion) {
            ByteBuffer bb = ByteBuffer.allocate(2);
            bb.putShort(0, value);
            return bb;
        }

        @Override
        public short deserializeNoBoxing(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null || bytes.remaining() == 0)
                return 0;
            if (bytes.remaining() != 2)
                throw new InvalidTypeException("Invalid 16-bits integer value, expecting 2 bytes but got " + bytes.remaining());

            return bytes.getShort(bytes.position());
        }
    }

    /**
     * This codec maps a CQL {@link DataType#cint()} to a Java {@link Integer}.
     */
    private static class IntCodec extends PrimitiveIntCodec {

        private static final IntCodec instance = new IntCodec();

        private IntCodec() {
            super(DataType.cint());
        }

        @Override
        public Integer parse(String value) {
            try {
                return value == null || value.isEmpty() || value.equalsIgnoreCase("NULL") ? null : Integer.parseInt(value);
            } catch (NumberFormatException e) {
                throw new InvalidTypeException(String.format("Cannot parse 32-bits int value from \"%s\"", value));
            }
        }

        @Override
        public String format(Integer value) {
            if (value == null)
                return "NULL";
            return Integer.toString(value);
        }

        @Override
        public ByteBuffer serializeNoBoxing(int value, ProtocolVersion protocolVersion) {
            ByteBuffer bb = ByteBuffer.allocate(4);
            bb.putInt(0, value);
            return bb;
        }

        @Override
        public int deserializeNoBoxing(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null || bytes.remaining() == 0)
                return 0;
            if (bytes.remaining() != 4)
                throw new InvalidTypeException("Invalid 32-bits integer value, expecting 4 bytes but got " + bytes.remaining());

            return bytes.getInt(bytes.position());
        }
    }

    /**
     * This codec maps a CQL {@link DataType#timestamp()} to a Java {@link Date}.
     */
    private static class TimestampCodec extends TypeCodec<Date> {

        private static final TimestampCodec instance = new TimestampCodec();

        private TimestampCodec() {
            super(DataType.timestamp(), Date.class);
        }

        @Override
        public Date parse(String value) {
            if (value == null || value.isEmpty() || value.equalsIgnoreCase("NULL"))
                return null;
            // strip enclosing single quotes, if any
            if (ParseUtils.isQuoted(value))
                value = ParseUtils.unquote(value);

            if (ParseUtils.isLongLiteral(value)) {
                try {
                    return new Date(Long.parseLong(value));
                } catch (NumberFormatException e) {
                    throw new InvalidTypeException(String.format("Cannot parse timestamp value from \"%s\"", value));
                }
            }

            try {
                return ParseUtils.parseDate(value);
            } catch (ParseException e) {
                throw new InvalidTypeException(String.format("Cannot parse timestamp value from \"%s\"", value));
            }
        }

        @Override
        public String format(Date value) {
            if (value == null)
                return "NULL";
            return Long.toString(value.getTime());
        }

        @Override
        public ByteBuffer serialize(Date value, ProtocolVersion protocolVersion) {
            return value == null ? null : BigintCodec.instance.serializeNoBoxing(value.getTime(), protocolVersion);
        }

        @Override
        public Date deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            return bytes == null || bytes.remaining() == 0 ? null : new Date(BigintCodec.instance.deserializeNoBoxing(bytes, protocolVersion));
        }
    }

    /**
     * This codec maps a CQL {@link DataType#date()} to the custom {@link LocalDate} class.
     */
    private static class DateCodec extends TypeCodec<LocalDate> {

        private static final DateCodec instance = new DateCodec();

        private static final String pattern = "yyyy-MM-dd";

        private DateCodec() {
            super(DataType.date(), LocalDate.class);
        }

        @Override
        public LocalDate parse(String value) {
            if (value == null || value.isEmpty() || value.equalsIgnoreCase("NULL"))
                return null;

            // single quotes are optional for long literals, mandatory for date patterns
            // strip enclosing single quotes, if any
            if (ParseUtils.isQuoted(value))
                value = ParseUtils.unquote(value);

            if (ParseUtils.isLongLiteral(value)) {
                long unsigned;
                try {
                    unsigned = Long.parseLong(value);
                } catch (NumberFormatException e) {
                    throw new InvalidTypeException(String.format("Cannot parse date value from \"%s\"", value), e);
                }
                try {
                    int days = CodecUtils.fromCqlDateToDaysSinceEpoch(unsigned);
                    return LocalDate.fromDaysSinceEpoch(days);
                } catch (IllegalArgumentException e) {
                    throw new InvalidTypeException(String.format("Cannot parse date value from \"%s\"", value), e);
                }
            }

            try {
                Date date = ParseUtils.parseDate(value, pattern);
                return LocalDate.fromMillisSinceEpoch(date.getTime());
            } catch (ParseException e) {
                throw new InvalidTypeException(String.format("Cannot parse date value from \"%s\"", value), e);
            }
        }

        @Override
        public String format(LocalDate value) {
            if (value == null)
                return "NULL";
            return ParseUtils.quote(value.toString());
        }

        @Override
        public ByteBuffer serialize(LocalDate value, ProtocolVersion protocolVersion) {
            if (value == null)
                return null;
            int unsigned = CodecUtils.fromSignedToUnsignedInt(value.getDaysSinceEpoch());
            return IntCodec.instance.serializeNoBoxing(unsigned, protocolVersion);
        }

        @Override
        public LocalDate deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null || bytes.remaining() == 0)
                return null;
            int unsigned = IntCodec.instance.deserializeNoBoxing(bytes, protocolVersion);
            int signed = CodecUtils.fromUnsignedToSignedInt(unsigned);
            return LocalDate.fromDaysSinceEpoch(signed);
        }

    }

    /**
     * This codec maps a CQL {@link DataType#time()} to a Java {@link Long}.
     */
    private static class TimeCodec extends LongCodec {

        private static final TimeCodec instance = new TimeCodec();

        private TimeCodec() {
            super(DataType.time());
        }

        @Override
        public Long parse(String value) {
            if (value == null || value.isEmpty() || value.equalsIgnoreCase("NULL"))
                return null;

            // enclosing single quotes required, even for long literals
            if (!ParseUtils.isQuoted(value))
                throw new InvalidTypeException("time values must be enclosed by single quotes");
            value = value.substring(1, value.length() - 1);

            if (ParseUtils.isLongLiteral(value)) {
                try {
                    return Long.parseLong(value);
                } catch (NumberFormatException e) {
                    throw new InvalidTypeException(String.format("Cannot parse time value from \"%s\"", value), e);
                }
            }

            try {
                return ParseUtils.parseTime(value);
            } catch (ParseException e) {
                throw new InvalidTypeException(String.format("Cannot parse time value from \"%s\"", value), e);
            }
        }

        @Override
        public String format(Long value) {
            if (value == null)
                return "NULL";
            return ParseUtils.quote(ParseUtils.formatTime(value));
        }

    }

    /**
     * Base class for codecs handling CQL UUID types such as {@link DataType#uuid()} and {@link DataType#timeuuid()}.
     */
    private static abstract class AbstractUUIDCodec extends TypeCodec<UUID> {

        private AbstractUUIDCodec(DataType cqlType) {
            super(cqlType, UUID.class);
        }

        @Override
        public UUID parse(String value) {
            try {
                return value == null || value.isEmpty() || value.equalsIgnoreCase("NULL") ? null : UUID.fromString(value);
            } catch (IllegalArgumentException e) {
                throw new InvalidTypeException(String.format("Cannot parse UUID value from \"%s\"", value), e);
            }
        }

        @Override
        public String format(UUID value) {
            if (value == null)
                return "NULL";
            return value.toString();
        }

        @Override
        public ByteBuffer serialize(UUID value, ProtocolVersion protocolVersion) {
            if (value == null)
                return null;
            ByteBuffer bb = ByteBuffer.allocate(16);
            bb.putLong(0, value.getMostSignificantBits());
            bb.putLong(8, value.getLeastSignificantBits());
            return bb;
        }

        @Override
        public UUID deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            return bytes == null || bytes.remaining() == 0 ? null : new UUID(bytes.getLong(bytes.position()), bytes.getLong(bytes.position() + 8));
        }
    }

    /**
     * This codec maps a CQL {@link DataType#uuid()} to a Java {@link UUID}.
     */
    private static class UUIDCodec extends AbstractUUIDCodec {

        private static final UUIDCodec instance = new UUIDCodec();

        private UUIDCodec() {
            super(DataType.uuid());
        }

    }

    /**
     * This codec maps a CQL {@link DataType#timeuuid()} to a Java {@link UUID}.
     */
    private static class TimeUUIDCodec extends AbstractUUIDCodec {

        private static final TimeUUIDCodec instance = new TimeUUIDCodec();

        private TimeUUIDCodec() {
            super(timeuuid());
        }

        @Override
        public String format(UUID value) {
            if (value == null)
                return "NULL";
            if (value.version() != 1)
                throw new InvalidTypeException(String.format("%s is not a Type 1 (time-based) UUID", value));
            return super.format(value);
        }

        @Override
        public ByteBuffer serialize(UUID value, ProtocolVersion protocolVersion) {
            if (value == null)
                return null;
            if (value.version() != 1)
                throw new InvalidTypeException(String.format("%s is not a Type 1 (time-based) UUID", value));
            return super.serialize(value, protocolVersion);
        }
    }

    /**
     * This codec maps a CQL {@link DataType#varint()} to a Java {@link BigInteger}.
     */
    private static class VarintCodec extends TypeCodec<BigInteger> {

        private static final VarintCodec instance = new VarintCodec();

        private VarintCodec() {
            super(DataType.varint(), BigInteger.class);
        }

        @Override
        public BigInteger parse(String value) {
            try {
                return value == null || value.isEmpty() || value.equalsIgnoreCase("NULL") ? null : new BigInteger(value);
            } catch (NumberFormatException e) {
                throw new InvalidTypeException(String.format("Cannot parse varint value from \"%s\"", value), e);
            }
        }

        @Override
        public String format(BigInteger value) {
            if (value == null)
                return "NULL";
            return value.toString();
        }

        @Override
        public ByteBuffer serialize(BigInteger value, ProtocolVersion protocolVersion) {
            return value == null ? null : ByteBuffer.wrap(value.toByteArray());
        }

        @Override
        public BigInteger deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            return bytes == null || bytes.remaining() == 0 ? null : new BigInteger(Bytes.getArray(bytes));
        }
    }

    /**
     * Base class for codecs mapping CQL {@link DataType#list(DataType) lists}
     * and {@link DataType#set(DataType) sets} to Java collections.
     */
    public abstract static class AbstractCollectionCodec<E, C extends Collection<E>> extends TypeCodec<C> {

        protected final TypeCodec<E> eltCodec;

        protected AbstractCollectionCodec(CollectionType cqlType, TypeToken<C> javaType, TypeCodec<E> eltCodec) {
            super(cqlType, javaType);
            checkArgument(cqlType.getName() == Name.LIST || cqlType.getName() == Name.SET, "Expecting list or set type, got %s", cqlType);
            this.eltCodec = eltCodec;
        }

        @Override
        public ByteBuffer serialize(C value, ProtocolVersion protocolVersion) {
            if (value == null)
                return null;
            int i = 0;
            ByteBuffer[] bbs = new ByteBuffer[value.size()];
            for (E elt : value) {
                if (elt == null) {
                    throw new NullPointerException("Collection elements cannot be null");
                }
                ByteBuffer bb;
                try {
                    bb = eltCodec.serialize(elt, protocolVersion);
                } catch (ClassCastException e) {
                    throw new InvalidTypeException(
                            String.format("Invalid type for %s element, expecting %s but got %s",
                                    cqlType, eltCodec.getJavaType(), elt.getClass()), e);
                }
                bbs[i++] = bb;
            }
            return CodecUtils.pack(bbs, value.size(), protocolVersion);
        }

        @Override
        public C deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null || bytes.remaining() == 0)
                return newInstance(0);
            try {
                ByteBuffer input = bytes.duplicate();
                int size = CodecUtils.readSize(input, protocolVersion);
                C coll = newInstance(size);
                for (int i = 0; i < size; i++) {
                    ByteBuffer databb = CodecUtils.readValue(input, protocolVersion);
                    coll.add(eltCodec.deserialize(databb, protocolVersion));
                }
                return coll;
            } catch (BufferUnderflowException e) {
                throw new InvalidTypeException("Not enough bytes to deserialize collection", e);
            }
        }

        @Override
        public String format(C value) {
            if (value == null)
                return "NULL";
            StringBuilder sb = new StringBuilder();
            sb.append(getOpeningChar());
            int i = 0;
            for (E v : value) {
                if (i++ != 0)
                    sb.append(",");
                sb.append(eltCodec.format(v));
            }
            sb.append(getClosingChar());
            return sb.toString();
        }

        @Override
        public C parse(String value) {
            if (value == null || value.isEmpty() || value.equalsIgnoreCase("NULL"))
                return null;

            int idx = ParseUtils.skipSpaces(value, 0);
            if (value.charAt(idx++) != getOpeningChar())
                throw new InvalidTypeException(String.format("Cannot parse collection value from \"%s\", at character %d expecting '%s' but got '%c'", value, idx, getOpeningChar(), value.charAt(idx)));

            idx = ParseUtils.skipSpaces(value, idx);

            if (value.charAt(idx) == getClosingChar())
                return newInstance(0);

            C l = newInstance(10);
            while (idx < value.length()) {
                int n;
                try {
                    n = ParseUtils.skipCQLValue(value, idx);
                } catch (IllegalArgumentException e) {
                    throw new InvalidTypeException(String.format("Cannot parse collection value from \"%s\", invalid CQL value at character %d", value, idx), e);
                }

                l.add(eltCodec.parse(value.substring(idx, n)));
                idx = n;

                idx = ParseUtils.skipSpaces(value, idx);
                if (value.charAt(idx) == getClosingChar())
                    return l;
                if (value.charAt(idx++) != ',')
                    throw new InvalidTypeException(String.format("Cannot parse collection value from \"%s\", at character %d expecting ',' but got '%c'", value, idx, value.charAt(idx)));

                idx = ParseUtils.skipSpaces(value, idx);
            }
            throw new InvalidTypeException(String.format("Malformed collection value \"%s\", missing closing '%s'", value, getClosingChar()));
        }

        @Override
        public boolean accepts(Object value) {
            if (getJavaType().getRawType().isAssignableFrom(value.getClass())) {
                // runtime type ok, now check element type
                Collection<?> coll = (Collection<?>) value;
                if (coll.isEmpty())
                    return true;
                Object elt = coll.iterator().next();
                return eltCodec.accepts(elt);
            }
            return false;
        }

        /**
         * Return a new instance of {@code C} with the given estimated size.
         *
         * @param size The estimated size of the collection to create.
         * @return new instance of {@code C} with the given estimated size.
         */
        protected abstract C newInstance(int size);

        /**
         * Return the opening character to use when formatting values as CQL literals.
         *
         * @return The opening character to use when formatting values as CQL literals.
         */
        private char getOpeningChar() {
            return cqlType.getName() == Name.LIST ? '[' : '{';
        }

        /**
         * Return the closing character to use when formatting values as CQL literals.
         *
         * @return The closing character to use when formatting values as CQL literals.
         */
        private char getClosingChar() {
            return cqlType.getName() == Name.LIST ? ']' : '}';
        }

    }

    /**
     * This codec maps a CQL {@link DataType#list(DataType) list type} to a Java {@link List}.
     * Implementation note: this codec returns mutable, non thread-safe {@link ArrayList} instances.
     */
    private static class ListCodec<T> extends AbstractCollectionCodec<T, List<T>> {

        private ListCodec(TypeCodec<T> eltCodec) {
            super(DataType.list(eltCodec.getCqlType()), TypeTokens.listOf(eltCodec.getJavaType()), eltCodec);
        }

        @Override
        protected List<T> newInstance(int size) {
            return new ArrayList<T>(size);
        }

    }

    /**
     * This codec maps a CQL {@link DataType#set(DataType) set type} to a Java {@link Set}.
     * Implementation note: this codec returns mutable, non thread-safe {@link LinkedHashSet} instances.
     */
    private static class SetCodec<T> extends AbstractCollectionCodec<T, Set<T>> {

        private SetCodec(TypeCodec<T> eltCodec) {
            super(DataType.set(eltCodec.cqlType), TypeTokens.setOf(eltCodec.getJavaType()), eltCodec);
        }

        @Override
        protected Set<T> newInstance(int size) {
            return new LinkedHashSet<T>(size);
        }

    }

    /**
     * Base class for codecs mapping CQL {@link DataType#map(DataType, DataType) maps} to a Java {@link Map}.
     */
    public abstract static class AbstractMapCodec<K, V> extends TypeCodec<Map<K, V>> {

        protected final TypeCodec<K> keyCodec;

        protected final TypeCodec<V> valueCodec;

        protected AbstractMapCodec(TypeCodec<K> keyCodec, TypeCodec<V> valueCodec) {
            super(DataType.map(keyCodec.getCqlType(), valueCodec.getCqlType()), TypeTokens.mapOf(keyCodec.getJavaType(), valueCodec.getJavaType()));
            this.keyCodec = keyCodec;
            this.valueCodec = valueCodec;
        }

        @Override
        public boolean accepts(Object value) {
            if (value instanceof Map) {
                // runtime type ok, now check key and value types
                Map<?, ?> map = (Map<?, ?>) value;
                if (map.isEmpty())
                    return true;
                Map.Entry<?, ?> entry = map.entrySet().iterator().next();
                return keyCodec.accepts(entry.getKey()) && valueCodec.accepts(entry.getValue());
            }
            return false;
        }

        @Override
        public Map<K, V> parse(String value) {
            if (value == null || value.isEmpty() || value.equalsIgnoreCase("NULL"))
                return null;

            int idx = ParseUtils.skipSpaces(value, 0);
            if (value.charAt(idx++) != '{')
                throw new InvalidTypeException(String.format("cannot parse map value from \"%s\", at character %d expecting '{' but got '%c'", value, idx, value.charAt(idx)));

            idx = ParseUtils.skipSpaces(value, idx);

            if (value.charAt(idx) == '}')
                return newInstance(0);

            Map<K, V> m = new HashMap<K, V>();
            while (idx < value.length()) {
                int n;
                try {
                    n = ParseUtils.skipCQLValue(value, idx);
                } catch (IllegalArgumentException e) {
                    throw new InvalidTypeException(String.format("Cannot parse map value from \"%s\", invalid CQL value at character %d", value, idx), e);
                }

                K k = keyCodec.parse(value.substring(idx, n));
                idx = n;

                idx = ParseUtils.skipSpaces(value, idx);
                if (value.charAt(idx++) != ':')
                    throw new InvalidTypeException(String.format("Cannot parse map value from \"%s\", at character %d expecting ':' but got '%c'", value, idx, value.charAt(idx)));
                idx = ParseUtils.skipSpaces(value, idx);

                try {
                    n = ParseUtils.skipCQLValue(value, idx);
                } catch (IllegalArgumentException e) {
                    throw new InvalidTypeException(String.format("Cannot parse map value from \"%s\", invalid CQL value at character %d", value, idx), e);
                }

                V v = valueCodec.parse(value.substring(idx, n));
                idx = n;

                m.put(k, v);

                idx = ParseUtils.skipSpaces(value, idx);
                if (value.charAt(idx) == '}')
                    return m;
                if (value.charAt(idx++) != ',')
                    throw new InvalidTypeException(String.format("Cannot parse map value from \"%s\", at character %d expecting ',' but got '%c'", value, idx, value.charAt(idx)));

                idx = ParseUtils.skipSpaces(value, idx);

            }
            throw new InvalidTypeException(String.format("Malformed map value \"%s\", missing closing '}'", value));
        }

        @Override
        public String format(Map<K, V> value) {
            if (value == null)
                return "NULL";
            StringBuilder sb = new StringBuilder();
            sb.append("{");
            int i = 0;
            for (Map.Entry<K, V> e : value.entrySet()) {
                if (i++ != 0)
                    sb.append(",");
                sb.append(keyCodec.format(e.getKey()));
                sb.append(":");
                sb.append(valueCodec.format(e.getValue()));
            }
            sb.append("}");
            return sb.toString();
        }

        @Override
        public ByteBuffer serialize(Map<K, V> value, ProtocolVersion protocolVersion) {
            if (value == null)
                return null;
            int i = 0;
            ByteBuffer[] bbs = new ByteBuffer[2 * value.size()];
            for (Map.Entry<K, V> entry : value.entrySet()) {
                ByteBuffer bbk;
                K key = entry.getKey();
                if (key == null) {
                    throw new NullPointerException("Map keys cannot be null");
                }
                try {
                    bbk = keyCodec.serialize(key, protocolVersion);
                } catch (ClassCastException e) {
                    throw new InvalidTypeException(String.format("Invalid type for map key, expecting %s but got %s", keyCodec.getJavaType(), key.getClass()), e);
                }
                ByteBuffer bbv;
                V v = entry.getValue();
                if (v == null) {
                    throw new NullPointerException("Map values cannot be null");
                }
                try {
                    bbv = valueCodec.serialize(v, protocolVersion);
                } catch (ClassCastException e) {
                    throw new InvalidTypeException(String.format("Invalid type for map value, expecting %s but got %s", valueCodec.getJavaType(), v.getClass()), e);
                }
                bbs[i++] = bbk;
                bbs[i++] = bbv;
            }
            return CodecUtils.pack(bbs, value.size(), protocolVersion);
        }

        @Override
        public Map<K, V> deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null || bytes.remaining() == 0)
                return newInstance(0);
            try {
                ByteBuffer input = bytes.duplicate();
                int n = CodecUtils.readSize(input, protocolVersion);
                Map<K, V> m = newInstance(n);
                for (int i = 0; i < n; i++) {
                    ByteBuffer kbb = CodecUtils.readValue(input, protocolVersion);
                    ByteBuffer vbb = CodecUtils.readValue(input, protocolVersion);
                    m.put(keyCodec.deserialize(kbb, protocolVersion), valueCodec.deserialize(vbb, protocolVersion));
                }
                return m;
            } catch (BufferUnderflowException e) {
                throw new InvalidTypeException("Not enough bytes to deserialize a map", e);
            }
        }

        /**
         * Return a new {@link Map} instance with the given estimated size.
         *
         * @param size The estimated size of the collection to create.
         * @return A new {@link Map} instance with the given estimated size.
         */
        protected abstract Map<K, V> newInstance(int size);

    }

    /**
     * This codec maps a CQL {@link DataType#map(DataType, DataType) map type} to a Java {@link Map}.
     * Implementation note: this codec returns mutable, non thread-safe {@link LinkedHashMap} instances.
     */
    private static class MapCodec<K, V> extends AbstractMapCodec<K, V> {

        private MapCodec(TypeCodec<K> keyCodec, TypeCodec<V> valueCodec) {
            super(keyCodec, valueCodec);
        }

        @Override
        protected Map<K, V> newInstance(int size) {
            return new LinkedHashMap<K, V>(size);
        }

    }

    /**
     * Base class for codecs mapping CQL {@link UserType user-defined types} (UDTs) to Java objects.
     * It can serve as a base class for codecs dealing with direct UDT-to-Pojo mappings.
     *
     * @param <T> The Java type that the UDT will be mapped to.
     */
    public abstract static class AbstractUDTCodec<T> extends TypeCodec<T> {

        protected final UserType definition;

        protected AbstractUDTCodec(UserType definition, Class<T> javaClass) {
            this(definition, TypeToken.of(javaClass));
        }

        protected AbstractUDTCodec(UserType definition, TypeToken<T> javaType) {
            super(definition, javaType);
            this.definition = definition;
        }

        @Override
        public ByteBuffer serialize(T value, ProtocolVersion protocolVersion) {
            if (value == null)
                return null;
            int size = 0;
            int length = definition.size();
            ByteBuffer[] elements = new ByteBuffer[length];
            int i = 0;
            for (UserType.Field field : definition) {
                elements[i] = serializeField(value, Metadata.quoteIfNecessary(field.getName()), protocolVersion);
                size += 4 + (elements[i] == null ? 0 : elements[i].remaining());
                i++;
            }
            ByteBuffer result = ByteBuffer.allocate(size);
            for (ByteBuffer bb : elements) {
                if (bb == null) {
                    result.putInt(-1);
                } else {
                    result.putInt(bb.remaining());
                    result.put(bb.duplicate());
                }
            }
            return (ByteBuffer) result.flip();
        }

        @Override
        public T deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null)
                return null;
            // empty byte buffers will result in empty values
            try {
                ByteBuffer input = bytes.duplicate();
                T value = newInstance();
                for (UserType.Field field : definition) {
                    if (!input.hasRemaining())
                        break;
                    int n = input.getInt();
                    ByteBuffer element = n < 0 ? null : CodecUtils.readBytes(input, n);
                    value = deserializeAndSetField(element, value, Metadata.quoteIfNecessary(field.getName()), protocolVersion);
                }
                return value;
            } catch (BufferUnderflowException e) {
                throw new InvalidTypeException("Not enough bytes to deserialize a UDT", e);
            }
        }

        @Override
        public String format(T value) {
            if (value == null)
                return "NULL";
            StringBuilder sb = new StringBuilder("{");
            int i = 0;
            for (UserType.Field field : definition) {
                if (i > 0)
                    sb.append(",");
                sb.append(Metadata.quoteIfNecessary(field.getName()));
                sb.append(":");
                sb.append(formatField(value, Metadata.quoteIfNecessary(field.getName())));
                i += 1;
            }
            sb.append("}");
            return sb.toString();
        }

        @Override
        public T parse(String value) {
            if (value == null || value.isEmpty() || value.equals("NULL"))
                return null;

            T v = newInstance();

            int idx = ParseUtils.skipSpaces(value, 0);
            if (value.charAt(idx++) != '{')
                throw new InvalidTypeException(String.format("Cannot parse UDT value from \"%s\", at character %d expecting '{' but got '%c'", value, idx, value.charAt(idx)));

            idx = ParseUtils.skipSpaces(value, idx);

            if (value.charAt(idx) == '}')
                return v;

            while (idx < value.length()) {

                int n;
                try {
                    n = ParseUtils.skipCQLId(value, idx);
                } catch (IllegalArgumentException e) {
                    throw new InvalidTypeException(String.format("Cannot parse UDT value from \"%s\", cannot parse a CQL identifier at character %d", value, idx), e);
                }
                String name = value.substring(idx, n);
                idx = n;

                if (!definition.contains(name))
                    throw new InvalidTypeException(String.format("Unknown field %s in value \"%s\"", name, value));

                idx = ParseUtils.skipSpaces(value, idx);
                if (value.charAt(idx++) != ':')
                    throw new InvalidTypeException(String.format("Cannot parse UDT value from \"%s\", at character %d expecting ':' but got '%c'", value, idx, value.charAt(idx)));
                idx = ParseUtils.skipSpaces(value, idx);

                try {
                    n = ParseUtils.skipCQLValue(value, idx);
                } catch (IllegalArgumentException e) {
                    throw new InvalidTypeException(String.format("Cannot parse UDT value from \"%s\", invalid CQL value at character %d", value, idx), e);
                }

                String input = value.substring(idx, n);
                v = parseAndSetField(input, v, name);
                idx = n;

                idx = ParseUtils.skipSpaces(value, idx);
                if (value.charAt(idx) == '}')
                    return v;
                if (value.charAt(idx) != ',')
                    throw new InvalidTypeException(String.format("Cannot parse UDT value from \"%s\", at character %d expecting ',' but got '%c'", value, idx, value.charAt(idx)));
                ++idx; // skip ','

                idx = ParseUtils.skipSpaces(value, idx);
            }
            throw new InvalidTypeException(String.format("Malformed UDT value \"%s\", missing closing '}'", value));
        }

        /**
         * Return a new instance of {@code T}.
         *
         * @return A new instance of {@code T}.
         */
        protected abstract T newInstance();

        /**
         * Serialize an individual field in an object, as part of serializing the whole object to a CQL
         * UDT (see {@link #serialize(Object, ProtocolVersion)}).
         *
         * @param source          The object to read the field from.
         * @param fieldName       The name of the field. Note that if it is case-sensitive or contains special
         *                        characters, it will be double-quoted (i.e. the string will contain actual
         *                        quote characters, as in {@code "\"foobar\""}).
         * @param protocolVersion The protocol version to use.
         * @return The serialized field, or {@code null} if that field should be ignored.
         */
        protected abstract ByteBuffer serializeField(T source, String fieldName, ProtocolVersion protocolVersion);

        /**
         * Deserialize an individual field and set it on an object, as part of deserializing the whole
         * object from a CQL UDT (see {@link #deserialize(ByteBuffer, ProtocolVersion)}).
         *
         * @param input           The serialized form of the field.
         * @param target          The object to set the field on.
         * @param fieldName       The name of the field. Note that if it is case-sensitive or contains special
         *                        characters, it will be double-quoted (i.e. the string will contain actual
         *                        quote characters, as in {@code "\"foobar\""}).
         * @param protocolVersion The protocol version to use.
         * @return The target object with the field set. In most cases this should be the same as {@code target}, but if you're dealing
         * with immutable types you'll need to return a different instance.
         */
        protected abstract T deserializeAndSetField(ByteBuffer input, T target, String fieldName, ProtocolVersion protocolVersion);

        /**
         * Format an individual field in an object as a CQL literal, as part of formatting the whole object
         * (see {@link #format(Object)}).
         *
         * @param source    The object to read the field from.
         * @param fieldName The name of the field. Note that if it is case-sensitive or contains special
         *                  characters, it will be double-quoted (i.e. the string will contain actual
         *                  quote characters, as in {@code "\"foobar\""}).
         * @return The formatted value.
         */
        protected abstract String formatField(T source, String fieldName);

        /**
         * Parse an individual field and set it on an object, as part of parsing the whole object
         * (see {@link #parse(String)}).
         *
         * @param input     The String to parse the field from.
         * @param target    The value to write to.
         * @param fieldName The name of the field. Note that if it is case-sensitive or contains special
         *                  characters, it will be double-quoted (i.e. the string will contain actual
         *                  quote characters, as in {@code "\"foobar\""}).
         * @return The target object with the field set. In most cases this should be the same as {@code target}, but if you're dealing
         * with immutable types you'll need to return a different instance.
         */
        protected abstract T parseAndSetField(String input, T target, String fieldName);
    }

    /**
     * This codec maps a CQL {@link UserType} to a {@link UDTValue}.
     */
    private static class UDTCodec extends AbstractUDTCodec<UDTValue> {

        private UDTCodec(UserType definition) {
            super(definition, UDTValue.class);
        }

        @Override
        public boolean accepts(Object value) {
            return super.accepts(value) && ((UDTValue) value).getType().equals(definition);
        }

        @Override
        protected UDTValue newInstance() {
            return definition.newValue();
        }

        @Override
        protected ByteBuffer serializeField(UDTValue source, String fieldName, ProtocolVersion protocolVersion) {
            return source.getBytesUnsafe(fieldName);
        }

        @Override
        protected UDTValue deserializeAndSetField(ByteBuffer input, UDTValue target, String fieldName, ProtocolVersion protocolVersion) {
            return target.setBytesUnsafe(fieldName, input);
        }

        @Override
        protected String formatField(UDTValue source, String fieldName) {
            DataType elementType = definition.getFieldType(fieldName);
            TypeCodec<Object> codec = definition.getCodecRegistry().codecFor(elementType);
            return codec.format(source.get(fieldName, codec.getJavaType()));
        }

        @Override
        protected UDTValue parseAndSetField(String input, UDTValue target, String fieldName) {
            DataType elementType = definition.getFieldType(fieldName);
            TypeCodec<Object> codec = definition.getCodecRegistry().codecFor(elementType);
            target.set(fieldName, codec.parse(input), codec.getJavaType());
            return target;
        }
    }

    /**
     * Base class for codecs mapping CQL {@link TupleType tuples} to Java objects.
     * It can serve as a base class for codecs dealing with
     * direct tuple-to-Pojo mappings.
     *
     * @param <T> The Java type that this codec handles.
     */
    public abstract static class AbstractTupleCodec<T> extends TypeCodec<T> {

        protected final TupleType definition;

        protected AbstractTupleCodec(TupleType definition, Class<T> javaClass) {
            this(definition, TypeToken.of(javaClass));
        }

        protected AbstractTupleCodec(TupleType definition, TypeToken<T> javaType) {
            super(definition, javaType);
            this.definition = definition;
        }

        @Override
        public boolean accepts(DataType cqlType) {
            // a tuple codec should accept tuple values of a different type,
            // provided that the latter is contained in this codec's type.
            return super.accepts(cqlType) && definition.contains((TupleType) cqlType);
        }

        @Override
        public ByteBuffer serialize(T value, ProtocolVersion protocolVersion) {
            if (value == null)
                return null;
            int size = 0;
            int length = definition.getComponentTypes().size();
            ByteBuffer[] elements = new ByteBuffer[length];
            for (int i = 0; i < length; i++) {
                elements[i] = serializeField(value, i, protocolVersion);
                size += 4 + (elements[i] == null ? 0 : elements[i].remaining());
            }
            ByteBuffer result = ByteBuffer.allocate(size);
            for (ByteBuffer bb : elements) {
                if (bb == null) {
                    result.putInt(-1);
                } else {
                    result.putInt(bb.remaining());
                    result.put(bb.duplicate());
                }
            }
            return (ByteBuffer) result.flip();
        }

        @Override
        public T deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) {
            if (bytes == null)
                return null;
            // empty byte buffers will result in empty values
            try {
                ByteBuffer input = bytes.duplicate();
                T value = newInstance();
                int i = 0;
                while (input.hasRemaining() && i < definition.getComponentTypes().size()) {
                    int n = input.getInt();
                    ByteBuffer element = n < 0 ? null : CodecUtils.readBytes(input, n);
                    value = deserializeAndSetField(element, value, i++, protocolVersion);
                }
                return value;
            } catch (BufferUnderflowException e) {
                throw new InvalidTypeException("Not enough bytes to deserialize a tuple", e);
            }
        }

        @Override
        public String format(T value) {
            if (value == null)
                return "NULL";
            StringBuilder sb = new StringBuilder("(");
            int length = definition.getComponentTypes().size();
            for (int i = 0; i < length; i++) {
                if (i > 0)
                    sb.append(",");
                sb.append(formatField(value, i));
            }
            sb.append(")");
            return sb.toString();
        }

        @Override
        public T parse(String value) {
            if (value == null || value.isEmpty() || value.equalsIgnoreCase("NULL"))
                return null;

            T v = newInstance();

            int idx = ParseUtils.skipSpaces(value, 0);
            if (value.charAt(idx++) != '(')
                throw new InvalidTypeException(String.format("Cannot parse tuple value from \"%s\", at character %d expecting '(' but got '%c'", value, idx, value.charAt(idx)));

            idx = ParseUtils.skipSpaces(value, idx);

            if (value.charAt(idx) == ')')
                return v;

            int i = 0;
            while (idx < value.length()) {
                int n;
                try {
                    n = ParseUtils.skipCQLValue(value, idx);
                } catch (IllegalArgumentException e) {
                    throw new InvalidTypeException(String.format("Cannot parse tuple value from \"%s\", invalid CQL value at character %d", value, idx), e);
                }

                String input = value.substring(idx, n);
                v = parseAndSetField(input, v, i);
                idx = n;
                i += 1;

                idx = ParseUtils.skipSpaces(value, idx);
                if (value.charAt(idx) == ')')
                    return v;
                if (value.charAt(idx) != ',')
                    throw new InvalidTypeException(String.format("Cannot parse tuple value from \"%s\", at character %d expecting ',' but got '%c'", value, idx, value.charAt(idx)));
                ++idx; // skip ','

                idx = ParseUtils.skipSpaces(value, idx);
            }
            throw new InvalidTypeException(String.format("Malformed tuple value \"%s\", missing closing ')'", value));
        }

        /**
         * Return a new instance of {@code T}.
         *
         * @return A new instance of {@code T}.
         */
        protected abstract T newInstance();

        /**
         * Serialize an individual field in an object, as part of serializing the whole object to a CQL
         * tuple (see {@link #serialize(Object, ProtocolVersion)}).
         *
         * @param source          The object to read the field from.
         * @param index           The index of the field.
         * @param protocolVersion The protocol version to use.
         * @return The serialized field, or {@code null} if that field should be ignored.
         */
        protected abstract ByteBuffer serializeField(T source, int index, ProtocolVersion protocolVersion);

        /**
         * Deserialize an individual field and set it on an object, as part of deserializing the whole
         * object from a CQL tuple (see {@link #deserialize(ByteBuffer, ProtocolVersion)}).
         *
         * @param input           The serialized form of the field.
         * @param target          The object to set the field on.
         * @param index           The index of the field.
         * @param protocolVersion The protocol version to use.
         * @return The target object with the field set. In most cases this should be the same as {@code target}, but if you're dealing
         * with immutable types you'll need to return a different instance.
         */
        protected abstract T deserializeAndSetField(ByteBuffer input, T target, int index, ProtocolVersion protocolVersion);

        /**
         * Format an individual field in an object as a CQL literal, as part of formatting the whole object
         * (see {@link #format(Object)}).
         *
         * @param source The object to read the field from.
         * @param index  The index of the field.
         * @return The formatted value.
         */
        protected abstract String formatField(T source, int index);

        /**
         * Parse an individual field and set it on an object, as part of parsing the whole object
         * (see {@link #parse(String)}).
         *
         * @param input  The String to parse the field from.
         * @param target The value to write to.
         * @param index  The index of the field.
         * @return The target object with the field set. In most cases this should be the same as {@code target}, but if you're dealing
         * with immutable types you'll need to return a different instance.
         */
        protected abstract T parseAndSetField(String input, T target, int index);

    }

    /**
     * This codec maps a CQL {@link TupleType tuple} to a {@link TupleValue}.
     */
    private static class TupleCodec extends AbstractTupleCodec<TupleValue> {

        private TupleCodec(TupleType definition) {
            super(definition, TupleValue.class);
        }

        @Override
        public boolean accepts(Object value) {
            // a tuple codec should accept tuple values of a different type,
            // provided that the latter is contained in this codec's type.
            return super.accepts(value) && definition.contains(((TupleValue) value).getType());
        }

        @Override
        protected TupleValue newInstance() {
            return definition.newValue();
        }

        @Override
        protected ByteBuffer serializeField(TupleValue source, int index, ProtocolVersion protocolVersion) {
            if (index >= source.values.length)
                return null;
            return source.getBytesUnsafe(index);
        }

        @Override
        protected TupleValue deserializeAndSetField(ByteBuffer input, TupleValue target, int index, ProtocolVersion protocolVersion) {
            if (index >= target.values.length)
                return target;
            return target.setBytesUnsafe(index, input);
        }

        @Override
        protected String formatField(TupleValue value, int index) {
            DataType elementType = definition.getComponentTypes().get(index);
            TypeCodec<Object> codec = definition.getCodecRegistry().codecFor(elementType);
            return codec.format(value.get(index, codec.getJavaType()));
        }

        @Override
        protected TupleValue parseAndSetField(String input, TupleValue target, int index) {
            DataType elementType = definition.getComponentTypes().get(index);
            TypeCodec<Object> codec = definition.getCodecRegistry().codecFor(elementType);
            target.set(index, codec.parse(input), codec.getJavaType());
            return target;
        }

    }

    private static class DurationCodec extends TypeCodec<Duration> {

        private static final DurationCodec instance = new DurationCodec();

        private DurationCodec() {
            super(DataType.duration(), Duration.class);
        }

        @Override
        public ByteBuffer serialize(Duration duration, ProtocolVersion protocolVersion) throws InvalidTypeException {
            if (duration == null)
                return null;
            long months = duration.getMonths();
            long days = duration.getDays();
            long nanoseconds = duration.getNanoseconds();
            int size = VIntCoding.computeVIntSize(months)
                    + VIntCoding.computeVIntSize(days)
                    + VIntCoding.computeVIntSize(nanoseconds);
            ByteArrayDataOutput out = ByteStreams.newDataOutput(size);
            try {
                VIntCoding.writeVInt(months, out);
                VIntCoding.writeVInt(days, out);
                VIntCoding.writeVInt(nanoseconds, out);
            } catch (IOException e) {
                // cannot happen
                throw new AssertionError();
            }
            return ByteBuffer.wrap(out.toByteArray());
        }

        @Override
        public Duration deserialize(ByteBuffer bytes, ProtocolVersion protocolVersion) throws InvalidTypeException {
            if (bytes == null || bytes.remaining() == 0) {
                return null;
            } else {
                DataInput in = ByteStreams.newDataInput(Bytes.getArray(bytes));
                try {
                    int months = (int) VIntCoding.readVInt(in);
                    int days = (int) VIntCoding.readVInt(in);
                    long nanoseconds = VIntCoding.readVInt(in);
                    return Duration.newInstance(months, days, nanoseconds);
                } catch (IOException e) {
                    // cannot happen
                    throw new AssertionError();
                }
            }
        }

        @Override
        public Duration parse(String value) throws InvalidTypeException {
            if (value == null || value.isEmpty() || value.equalsIgnoreCase("NULL"))
                return null;
            return Duration.from(value);
        }

        @Override
        public String format(Duration value) throws InvalidTypeException {
            if (value == null)
                return "NULL";
            return value.toString();
        }

    }

}
